Have a query? Ask a Tutor!!

Access to best educators and exclusive paper discussions

Offsite Campus Turito Championship

Can’t find what you’re looking for?

Our tutors are from top schools around the world, and they are waiting for you 24/7, anytime, anywhere.

Homework- One to One Solutions
Understand concepts to solve better
Get your doubts solved instantly

Physics-

General

Easy

Question

Find heat produced in the capacitors on closing the switch S

0.0002 J
0.0005 J
0.00075
zero

The correct answer is: zero

Related Questions to study

In the circuit shown in figure C₁=2C₂. Switch S is closed at time t=0. Let i1 and i₂ be the currents flowing through C₁ and C₂ at any time t, then the ratio i₁ / i₂

In the circuit shown in figure C₁=2C₂. Switch S is closed at time t=0. Let i1 and i₂ be the currents flowing through C₁ and C₂ at any time t, then the ratio i₁ / i₂

physics-General

In the transient shown the time constant of the circuit is :

In the transient shown the time constant of the circuit is :

physics-General

A capacitor C = 100 mF is connected to three resistors each of resistance 1 kW and a battery of emf 9V. The switch S has been closed for long time so as to charge the capacitor. When switch S is opened, the capacitor discharges with time constant

A capacitor C = 100 mF is connected to three resistors each of resistance 1 kW and a battery of emf 9V. The switch S has been closed for long time so as to charge the capacitor. When switch S is opened, the capacitor discharges with time constant

physics-General

parallel

A capacitor C = 100 $mu F$ is connected to three resistor each of resistance 1 $k capital omega$ and a battery of emf 9V. The switch S has been closed for long time so as to charge the capacitor. When switch S is opened, the capacitor discharges with time constant

A capacitor C = 100 $mu F$ is connected to three resistor each of resistance 1 $k capital omega$ and a battery of emf 9V. The switch S has been closed for long time so as to charge the capacitor. When switch S is opened, the capacitor discharges with time constant

physics-General

A charged capacitor is allowed to discharge through a resistance $2 capital omega$ by closing the switch S at the instant t = 0. At time t = ln 2 $mu S$ , the reading of the ammeter falls half of its initial value. The resistance of the ammeter equal to

A charged capacitor is allowed to discharge through a resistance $2 capital omega$ by closing the switch S at the instant t = 0. At time t = ln 2 $mu S$ , the reading of the ammeter falls half of its initial value. The resistance of the ammeter equal to

physics-General

Find equivalent capacitance across AB (all capacitances in $mu F$ )

Find equivalent capacitance across AB (all capacitances in $mu F$ )

physics-General

parallel

The diagram shows four capacitors with capacitances and break down voltages as mentioned. What should be the maximum value of the external emf source such that no capacitor breaks down?[Hint: First of all find out the break down voltages of each branch. After that compare them.]

The diagram shows four capacitors with capacitances and break down voltages as mentioned. What should be the maximum value of the external emf source such that no capacitor breaks down?[Hint: First of all find out the break down voltages of each branch. After that compare them.]

physics-General

Find the equivalent capacitance across A & B

Find the equivalent capacitance across A & B

physics-General

In the circuit shown, a potential difference of 60V is applied across AB. The potential difference between the point M and N is

In the circuit shown, a potential difference of 60V is applied across AB. The potential difference between the point M and N is

physics-General

parallel

In the circuit shown in figure, the ratio of charges on 5 $mu F$ and 4 $mu F$ capacitor is

In the circuit shown in figure, the ratio of charges on 5 $mu F$ and 4 $mu F$ capacitor is

physics-General

Four identical plates 1, 2, 3 and 4 are placed parallel to each other at equal distance as shown in the figure. Plates 1 and 4 are joined together and the space between 2 and 3 is filled with a dielectric of dielectric constant k = 2. The capacitance of the system between 1 and 3 & 2 and 4 are C₁ and C₂ respectively. The ratio C₁/C₂ is

Four identical plates 1, 2, 3 and 4 are placed parallel to each other at equal distance as shown in the figure. Plates 1 and 4 are joined together and the space between 2 and 3 is filled with a dielectric of dielectric constant k = 2. The capacitance of the system between 1 and 3 & 2 and 4 are C₁ and C₂ respectively. The ratio C₁/C₂ is

physics-General

Two capacitor having capacitances 8 $mu F$ and 16 $mu F$ have breaking voltages 20 V and 80 V. They are combined in series. The maximum charge they can store individually in the combination is

Two capacitor having capacitances 8 $mu F$ and 16 $mu F$ have breaking voltages 20 V and 80 V. They are combined in series. The maximum charge they can store individually in the combination is

physics-General

parallel

What is the equivalent capacitance of the system of capacitors between A & B

What is the equivalent capacitance of the system of capacitors between A & B

physics-General

Four metallic plates arearranged as shown in the figure. If the distance between each plate then capacitance of the given system between points A and B is (Given d << A)

Four metallic plates arearranged as shown in the figure. If the distance between each plate then capacitance of the given system between points A and B is (Given d << A)

physics-General

In the circuit shown, the energy stored in 1 $mu F$ capacitor is

In the circuit shown, the energy stored in 1 $mu F$ capacitor is

physics-General

parallel

card img

With Turito Academy.

card img

With Turito Foundation.

card img

Get an Expert Advice From Turito.

Turito Academy

card img

With Turito Academy.

Test Prep

card img

With Turito Foundation.